#include "test.h"
#include "rtp.h"

class RTPTestPlan: public TestPlan
{
public:
	RTPTestPlan() : TestPlan("RTP test plan")
	{
		
	}
	
	int init() 
	{
		Log("RTP::Init\n");
		return true;
	}
	
	int end()
	{
		Log("RTP::End\n");
		return true;
	}
	
	
	virtual void Execute()
	{
		init();
		
		Log("RTPHeader\n");
		testRTPHeader();
		Log("RTPPacket\n");
		testRTPPacket();
		Log("testSenderReport\n");
		testSenderReport();
		Log("NACK\n");
		testNack();
		Log("SDES header extensions\n");
		testSDESHeaderExtensions();
		Log("Transport Wide Message Feedback (1)\n");
		testTransportField();
		Log("Transport Wide Message Feedback (2)\n");
		testTransportWideFeedbackMessage();
		Log("Transport Wide Message Feedback (2)\n");
		testTransportWideFeedbackMessageParser();
		Log("testBye\n");
		testBye();
		Log("testExtSeqNum\n");
		testExtSeqNum();
		Log("testExtTimestamp\n");
		testExtTimestamp();
		end();
	}
	
	void testRTPHeader()
	{
		RTPHeader header;
		RTPHeaderExtension extension;
		RTPMap	extMap;
		extMap[5] = RTPHeaderExtension::TransportWideCC;
		
		BYTE data[]= {	
				0x90,0xe2,0x7c,0x2d,0x96,0x92,0x68,0x3a,0x00,0x00,0x62,0x32, //RTP Header
				0xbe,0xde,0x00,0x01,0x51,0x00,0x09,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};
		DWORD size = sizeof(data);
		
		//Parse header
		DWORD len = header.Parse(data,size);
		
		//Dump
		header.Dump();
		
		//Check data
		assert(len);
		assert(header.version==2);
		assert(!header.padding);
		assert(header.extension);
		assert(header.payloadType==98);
		assert(header.csrcs.size()==0);
		assert(header.ssrc==0x6232);
		assert(header.mark);
		assert(header.timestamp=252617738);
		
		//Parse extensions
		len = extension.Parse(extMap,data+len,size-len);
		
		//Dump
		header.Dump();
		extension.Dump();
		
		//Check
		assert(len);
		assert(extension.hasTransportWideCC);
		
		//Copy header
		RTPHeader clone(header);
		//Check data
		assert(clone.version==2);
		assert(!clone.padding);
		assert(clone.extension);
		assert(clone.payloadType==98);
		assert(clone.csrcs.size()==0);
		assert(clone.ssrc==0x6232);
		assert(clone.mark);
		assert(clone.timestamp=252617738);
		clone.Dump();
	}
	
	void testBye()
	{
		BYTE aux[1024];
		BYTE data[] = { 
		0x83,0xcb,0x00,0x06,
		0x01,0x63,0xd0,0xfe,
		0x59,0x97,0xef,0x7b,
		0x0a,0x7d,0x57,0x0e,
		0x0a,0x74,0x65,0x72,
		0x6d,0x69,0x6e,0x61,
		0x74,0x65,0x64,0x00 };

		DWORD size = sizeof(data);
		
		//Parse it
		auto rtcp = RTCPCompoundPacket::Parse(data,size);
		rtcp->Dump();
		
		//Serialize
		DWORD len = rtcp->Serialize(aux,1024);
		Dump(data,size);
		Dump(aux,len);
		
		auto cloned = RTCPCompoundPacket::Parse(aux,len);
		cloned->Dump();
	}
	
     

	void testSenderReport()
	{
		BYTE msg[] = {
			0x80,  0xc8,  0x00,  0x06,
			
			0x95,  0xce,  0x79,  0x1d,  //<-Sender
			0xdc,  0x48,  0x24,  0x68,  //NTP ts
			0xf7,  0x8e,  0xb0,  0x32, 
			0xe3,  0x4b,  0xae,  0x04,  //RTP ts
			0x00,  0x00,  0x00,  0xec,  //sende pc
			0x00,  0x01,  0x97,  0x22,  //sender oc
			
			0x81,  0xca,  0x00,  0x06,  //SSRC 1
			0x95,  0xce,  0x79,  0x1d,  //
			0x01,  0x10,  0x43,  0x4a,  //
			0x54,  0x62,  0x63,  0x47,  // 
			0x48,  0x36,  0x50,  0x59,  // 
			0x44,  0x4c,  0x43,  0x6c,  // 
			0x69,  0x34,  0x00,  0x00,  //
		};
		
		//Parse it
		auto rtcp = RTCPCompoundPacket::Parse(msg,sizeof(msg));
		rtcp->Dump();
		
		//Serialize
		BYTE data[1024];
		DWORD len = rtcp->Serialize(data,1024);
		Dump(data,len);
		
		assert(RTCPCompoundPacket::IsRTCP(data,len));
		assert(len==sizeof(msg));
		assert(memcmp(msg,data,len)==0);
		
		//Dump it
		rtcp->Dump();

	}
	
	void testNack()
	{
		
		BYTE msg[] = {
				0x81,   0xcd,   0x00,   0x03,  0x8a,   0xd7,   0xb4,   0x92, 
				0x00,  0x00,   0x61,   0x3b,   0x10,   0x30,   0x3,   0x00 
		};
			/*
			[RTCPCompoundPacket count=1 size=20]
			[RTCPPacket Feedback NACK sender:2329392274 media:24891]
				   [NACK pid:4144 blp:0000001100000000 /]
			[/RTCPPacket Feedback NACK]
			[/RTCPCompoundPacket]
			 */
		BYTE data[1024];
		
		//Create rtcp sender retpor
		auto rtcp = RTCPCompoundPacket::Create();

		//Create NACK
		auto nack = rtcp->CreatePacket<RTCPRTPFeedback>(RTCPRTPFeedback::NACK,2329392274,24891);

		//Add 
		nack->CreateField<RTCPRTPFeedback::NACKField>(4144,(WORD)0x0300);

		//Add to packet
		rtcp->Dump();
		
		//Serialize it
		DWORD len = rtcp->Serialize(data,1024);
		
		Dump(data,len);
		
		assert(RTCPCompoundPacket::IsRTCP(data,len));
		assert(len==sizeof(msg));
		assert(memcmp(msg,data,len)==0);
		
		//parse it back
		auto cloned = RTCPCompoundPacket::Parse(data,len);
		
		assert(cloned);
		
		//Serialize it again
		len = rtcp->Serialize(data,1024);
		
		Dump(data,len);
		
		assert(RTCPCompoundPacket::IsRTCP(data,len));
		assert(len==sizeof(msg));
		assert(memcmp(msg,data,len)==0);
		
		//Dump it
		cloned->Dump();
	}
	
	void testTransportField()
	{
		BYTE aux[1024];
		BYTE data[] = { 
		0x8f,0xcd,0x00,0x05,
		0x29,0xdd,0x06,0xa4,
		0x00,0x00,0x27,0x50,
		
		0x04,0x1e,0x00,0x02,
		0x09,0x03,0x95,0xed,
		0xc4,0x00,0x0c,0x00 };

		DWORD size = sizeof(data);
		
		//Parse it
		auto rtcp = RTCPCompoundPacket::Parse(data,size);
		rtcp->Dump();
		
		//Serialize
		DWORD len = rtcp->Serialize(aux,1024);
		Dump(data,size);
		Dump(aux,len);
		
		auto cloned = RTCPCompoundPacket::Parse(aux,len);
		cloned->Dump();
		
		BYTE data2[] = {
		0x8f,0xcd,0x00,0x05,
		0x97,0xb3,0x78,0x4f,
		0x00,0x00,0x40,0x4f,
		
		0x00,0x45,0x00,0x01,
		0x09,0xf9,0x73,0x00,
		0x20,0x01,0x0c,0x00};

		DWORD size2 = sizeof(data2);
		
		//Parse it
		auto rtcp2 = RTCPCompoundPacket::Parse(data2,size2);
		rtcp2->Dump();
		

		len = rtcp2->Serialize(aux,1024);
		Dump(data2,sizeof(data));
		Dump(aux,len);
		auto cloned2 = RTCPCompoundPacket::Parse(aux,len);
		cloned2->Dump();
		
	}
	
	void testSDESHeaderExtensions()
	{
		constexpr int8_t kPayloadType = 100;
		constexpr uint16_t kSeqNum = 0x1234;
		constexpr uint8_t kSeqNumFirstByte = kSeqNum >> 8;
		constexpr uint8_t kSeqNumSecondByte = kSeqNum & 0xff;
		constexpr uint8_t RTPStreamId = 0x0a;
		constexpr uint8_t MediaStreamId = 0x0b;
		constexpr uint8_t RepairedRTPStreamId = 0x0c;
		constexpr char kStreamId[] = "streamid";
		constexpr char kRepairedStreamId[] = "repairedid";
		constexpr char kMid[] = "mid";
		constexpr uint8_t kPacketWithRsid[] = {
		    0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
		    0x65, 0x43, 0x12, 0x78,
		    0x12, 0x34, 0x56, 0x78,
		    0xbe, 0xde, 0x00, 0x03,
		    0xa7, 's',  't',  'r',
		    'e',  'a',  'm',  'i',
		    'd' , 0x00, 0x00, 0x00};

		constexpr uint8_t kPacketWithMid[] = {
		    0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
		    0x65, 0x43, 0x12, 0x78,
		    0x12, 0x34, 0x56, 0x78,
		    0xbe, 0xde, 0x00, 0x01,
		    0xb2, 'm',  'i',  'd'};
		
		constexpr uint8_t kPacketWithAll[] = {
		    0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
		    0x65, 0x43, 0x12, 0x78,
		    0x12, 0x34, 0x56, 0x78,
		    0xbe, 0xde, 0x00, 0x06,
		    0xb2, 'm',  'i',  'd',
	            0xa7, 's',  't',  'r',
		    'e',  'a',  'm',  'i',
		    'd',  0xc9, 'r',  'e',
		    'p',  'a',  'i',  'r',
		    'e',  'd',  'i',  'd'};
		
		RTPMap	extMap;
		extMap[RTPStreamId] = RTPHeaderExtension::RTPStreamId;
		extMap[MediaStreamId] = RTPHeaderExtension::MediaStreamId;
		extMap[RepairedRTPStreamId] = RTPHeaderExtension::RepairedRTPStreamId;
		
		//RID
		{
			RTPHeader header;
			RTPHeaderExtension extension;
			//Parse header with rid
			const BYTE* data = kPacketWithRsid;
			DWORD size = sizeof(kPacketWithRsid);
			DWORD len = header.Parse(data,size);

			//Dump
			header.Dump();

			//Check data
			assert(len);
			assert(header.version==2);
			assert(!header.padding);
			assert(header.extension);
			assert(header.payloadType==kPayloadType);
			assert(header.sequenceNumber==kSeqNum);

			//Parse extensions
			len = extension.Parse(extMap,data+len,size-len);

			//Dump
			extension.Dump();

			//Check
			assert(len);
			assert(extension.hasRId);
			assert(strcmp(extension.rid.c_str(),kStreamId)==0);
			
			//Serialize and ensure it is the same
			BYTE aux[128];
			len = header.Serialize(aux,128);
			len += extension.Serialize(extMap,aux+len,size-len);
			Dump4(data,size);
			Dump4(aux,len);
			assert(len==size);
		}
		
		//MID
		{
			RTPHeader header;
			RTPHeaderExtension extension;
			//Parse header witn mid
			const BYTE* data = kPacketWithMid;
			DWORD size = sizeof(kPacketWithMid);
			DWORD len = header.Parse(data,size);
			//Dump
			header.Dump();

			//Check data
			assert(len);
			assert(header.version==2);
			assert(!header.padding);
			assert(header.extension);
			assert(header.payloadType==kPayloadType);
			assert(header.sequenceNumber==kSeqNum);
		
			//Parse extensions
			len = extension.Parse(extMap,data+len,size-len);

			//Dump
			extension.Dump();

			//Check
			assert(len);
			assert(extension.hasMediaStreamId);
			assert(strcmp(extension.mid.c_str(),kMid)==0);
			
			//Serialize and ensure it is the same
			BYTE aux[128];
			len = header.Serialize(aux,128);
			len += extension.Serialize(extMap,aux+len,size-len);
			Dump4(data,size);
			Dump4(aux,len);
			assert(len==size);
		}
		
		//ALL
		{
			RTPHeader header;
			RTPHeaderExtension extension;
			//Parse header with all
			const BYTE* data = kPacketWithAll;
			DWORD size = sizeof(kPacketWithAll);
			DWORD len = header.Parse(data,size);

			//Dump
			header.Dump();

			//Check data
			assert(len);
			assert(header.version==2);
			assert(!header.padding);
			assert(header.extension);
			assert(header.payloadType==kPayloadType);
			assert(header.sequenceNumber==kSeqNum);

			//Parse extensions
			len = extension.Parse(extMap,data+len,size-len);

			//Dump
			extension.Dump();

			//Check
			assert(len);
			assert(extension.hasRId);
			assert(strcmp(extension.rid.c_str(),kStreamId)==0);
			assert(extension.hasRepairedId);
			assert(strcmp(extension.repairedId.c_str(),kRepairedStreamId)==0);
			assert(extension.hasMediaStreamId);
			assert(strcmp(extension.mid.c_str(),kMid)==0);
			
			//Serialize and ensure it is the same
			BYTE aux[128];
			len = header.Serialize(aux,128);
			len += extension.Serialize(extMap,aux+len,size-len);
			Dump4(data,size);
			Dump4(aux,len);
			assert(len==size);
		}
		
		//MIX - no serialize transport wide cc
		{
			RTPMap	map;
			map[1] = RTPHeaderExtension::AbsoluteSendTime;
			map[2] = RTPHeaderExtension::TimeOffset;
			map[3] = RTPHeaderExtension::MediaStreamId;
			map[4] = RTPHeaderExtension::FrameMarking;
			
			RTPHeaderExtension extension;
			extension.hasTimeOffset = true;
			extension.hasAbsSentTime = true;
			extension.hasTransportWideCC = true;
			extension.hasFrameMarking = true;
			extension.hasMediaStreamId = true;
			extension.timeOffset = 1800;
			extension.absSentTime = 15069;
			extension.transportSeqNum = 116;
			extension.frameMarks.startOfFrame = 0;
			extension.frameMarks.endOfFrame = 1;
			extension.frameMarks.independent = 0;
			extension.frameMarks.discardable = 0;
			extension.frameMarks.baseLayerSync = 0;
			extension.frameMarks.temporalLayerId = 0;
			extension.frameMarks.layerId = 0;
			extension.frameMarks.tl0PicIdx = 0;
			extension.mid = "sdparta_0";
			
			
			//Serialize and ensure it is the same
			BYTE aux[128];
			extension.Dump();
			size_t len = extension.Serialize(map,aux,128);
			Dump4(aux,len);
		}
	}
	
	void testTransportWideFeedbackMessage()
	{
		DWORD mainSSRC = 1;
		DWORD ssrc = 2;
		DWORD feedbackPacketCount = 1;
		std::map<DWORD,QWORD> packets;
		DWORD lastFeedbackPacketExtSeqNum = 0;
		DWORD feedbackCycles = 0;
/*		
		DWORD i=1;
		packets[i++] = 1000;
		packets[i++] = 2000;
		i++; //lost;
		packets[i++] = 3000;
		packets[i++] = 5000;
		packets[i++] = 4000; //OOO
		packets[i++] = 6000;
		i++; //lost;
		packets[i++] = 7000;
*/
		QWORD initTime = 1515507427620000;
		packets[1912] = 1515507427621937;
		packets[1913] = 1515507427623837;
		packets[1914] = 1515507427675038;
		packets[1915] = 1515507427676752;
		packets[1916] = 1515507427677096;
		packets[1917] = 1515507427678231;
		packets[1918] = 1515507427679458;
		packets[1919] = 1515507427679779;
		packets[1920] = 1515507427681435;
		packets[1921] = 1515507427681649;
		packets[1922] = 1515507427683335;
		packets[1923] = 1515507427689809;
		packets[1924] = 1515507427689901;
		packets[1925] = 1515507427690941;
		packets[1926] = 1515507427691188;
		packets[1927] = 1515507427691561;
		packets[1928] = 1515507427693571;
		packets[1929] = 1515507427710500;
		packets[1930] = 1515507427714770;
		packets[1931] = 1515507427739440;
		packets[1932] = 1515507427784543;
			
		//Create rtcp transport wide feedback
		auto rtcp = RTCPCompoundPacket::Create();

		//Add to rtcp
		auto feedback = rtcp->CreatePacket<RTCPRTPFeedback>(RTCPRTPFeedback::TransportWideFeedbackMessage,mainSSRC,ssrc);

		//Create trnasport field
		auto field = feedback->CreateField<RTCPRTPFeedback::TransportWideFeedbackMessageField>(feedbackPacketCount++);

		//For each packet stats process it and delete from map
		for (auto it=packets.cbegin();
			  it!=packets.cend();
			  it=packets.erase(it))
		{
			//Get transportSeqNum
			DWORD transportSeqNum = it->first;
			//Get relative time
			QWORD time = it->second - initTime;

			//Check if we have a sequence wrap
			if (transportSeqNum<0x0FFF && (lastFeedbackPacketExtSeqNum & 0xFFFF)>0xF000)
				//Increase cycles
				feedbackCycles++;

			//Get extended value
			DWORD transportExtSeqNum = feedbackCycles<<16 | transportSeqNum;

			//if not first and not out of order
			if (lastFeedbackPacketExtSeqNum && transportExtSeqNum>lastFeedbackPacketExtSeqNum)
				//For each lost
				for (DWORD i = lastFeedbackPacketExtSeqNum+1; i<transportExtSeqNum; ++i)
					//Add it
					field->packets.insert(std::make_pair(i,0));
			//Store last
			lastFeedbackPacketExtSeqNum = transportExtSeqNum;

			//Add this one
			field->packets.insert(std::make_pair(transportSeqNum,time));

		}
			
		rtcp->Dump();
		
		//Get sizze
		DWORD size = rtcp->GetSize();
		
		//Create aux buffer for serializing it
		BYTE* data = (BYTE*)malloc(size);
		
		//Seriaize
		DWORD len = rtcp->Serialize(data,size);
		
		assert(len==size);
		Dump4(data,len);
		
		//Parse it
		auto parsed = RTCPCompoundPacket::Parse(data,len);
		
		parsed->Dump();
		
		auto a = rtcp->GetPacket<RTCPRTPFeedback>(0)->GetField<RTCPRTPFeedback::TransportWideFeedbackMessageField>(0)->packets;
		auto b = parsed->GetPacket<RTCPRTPFeedback>(0)->GetField<RTCPRTPFeedback::TransportWideFeedbackMessageField>(0)->packets;
		
		//Calucalte diferences
		for (auto orig=a.begin(), mod=b.begin(); orig!=a.end(), mod!=b.end(); ++orig, ++mod)
			//Log difference
			Log("-diff %d\n",orig->second-mod->second);
		
		free(data);
	}
	void testTransportWideFeedbackMessageParser()
	{
		{
			constexpr uint8_t rtcp[] = {
				0x8F, 0xCD, 0x00, 0x07, 0xAA, 0x7D, 0x9D, 0x28,
				0xAA, 0x7D, 0x9D, 0x28, 0x00, 0x02, 0x00, 0x08,
				0x71, 0x66, 0xD7, 0x00, 0x20, 0x08, 0x1C, 0x20,
				0x08, 0x10, 0x20, 0x10, 0x00, 0x14, 0x00, 0x00	
			};

			//Parse it
			auto parsed = RTCPCompoundPacket::Parse(rtcp,sizeof(rtcp));

			if (parsed)
				parsed->Dump();
		}
		
		{
			constexpr uint8_t rtcp[] = {
				0x8F, 0xCD, 0x00, 0x06, 0xDB, 0x17, 0xE1, 0x2C,
				0xDB, 0x17, 0xE1, 0x2C, 0x00, 0x0A, 0x00, 0x05,
				0x71, 0x66, 0xD7, 0x01, 0x20, 0x05, 0x14, 0x00,
				0x08, 0x00, 0xA8, 0x00
			};
			//Parse it
			auto parsed = RTCPCompoundPacket::Parse(rtcp,sizeof(rtcp));

			if (parsed)
				parsed->Dump();
		}
	}
	
	void testRTPPacket()
	{
		
		constexpr int8_t kPayloadType = 100;
		constexpr uint32_t kSsrc = 0x12345678;
		constexpr uint16_t kSeqNum = 0x1234;
		constexpr uint8_t kSeqNumFirstByte = kSeqNum >> 8;
		constexpr uint8_t kSeqNumSecondByte = kSeqNum & 0xff;
		constexpr uint32_t kTimestamp = 0x65431278;
		constexpr uint8_t kTransmissionOffsetExtensionId = 1;
		constexpr uint8_t kAudioLevelExtensionId = 9;
		constexpr uint8_t kRtpStreamIdExtensionId = 0xa;
		constexpr uint8_t kRtpMidExtensionId = 0xb;
		constexpr uint8_t kVideoTimingExtensionId = 0xc;
		constexpr uint8_t kTwoByteExtensionId = 0xf0;
		constexpr uint8_t kTwoByteExtensionMId = 0xf0;
		constexpr int32_t kTimeOffset = 0x56ce;
		constexpr bool kVoiceActive = true;
		constexpr uint8_t kAudioLevel = 0x5a;
		constexpr char kStreamId[] = "streamid";
		constexpr char kMid[] = "mid";
		constexpr char kLongMid[] = "extra-long string to test two-byte header";
		constexpr size_t kMaxPaddingSize = 224u;
		
		RTPMap	rtpMap;
		RTPMap	extMap;
		extMap[kTransmissionOffsetExtensionId]	= RTPHeaderExtension::TimeOffset;
		extMap[kAudioLevelExtensionId]		= RTPHeaderExtension::SSRCAudioLevel;
		extMap[kRtpStreamIdExtensionId]		= RTPHeaderExtension::RTPStreamId;
		extMap[kRtpMidExtensionId]		= RTPHeaderExtension::MediaStreamId;
		extMap[kTwoByteExtensionMId]		= RTPHeaderExtension::MediaStreamId;
		
		// clang-format off
		constexpr uint8_t kMinimumPacket[] = {
			0x80, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78
		};
		RTPPacket::Parse(kMinimumPacket, sizeof(kMinimumPacket), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTO[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x01,
			0x12, 0x00, 0x56, 0xce
		};
		RTPPacket::Parse(kPacketWithTO, sizeof(kPacketWithTO), rtpMap, extMap)->Dump();
		
		constexpr uint8_t kPacketWithTOAndAL[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x02,
			0x12, 0x00, 0x56, 0xce,
			0x90, 0x80 | kAudioLevel, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithTOAndAL, sizeof(kPacketWithTOAndAL), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTwoByteExtensionIdLast[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x10, 0x00, 0x00, 0x04,
			0x01, 0x03, 0x00, 0x56,
			0xce, 0x09, 0x01, 0x80 | kAudioLevel,
			kTwoByteExtensionId, 0x03, 0x00, 0x30, // => 0x00 0x30 0x22
			0x22, 0x00, 0x00, 0x00
		}; // => Playout delay.min_ms = 3*10
		// => Playout delay.max_ms = 34*10
		RTPPacket::Parse(kPacketWithTwoByteExtensionIdLast, sizeof(kPacketWithTwoByteExtensionIdLast), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTwoByteExtensionIdFirst[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x10, 0x00, 0x00, 0x04,
			kTwoByteExtensionId, 0x03, 0x00, 0x30, // => 0x00 0x30 0x22
			0x22, 0x01, 0x03, 0x00, // => Playout delay.min_ms = 3*10
			0x56, 0xce, 0x09, 0x01, // => Playout delay.max_ms = 34*10
			0x80 | kAudioLevel, 0x00, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithTwoByteExtensionIdFirst, sizeof(kPacketWithTwoByteExtensionIdFirst), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTOAndALInvalidPadding[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x03,
			0x12, 0x00, 0x56, 0xce,
			0x00, 0x02, 0x00, 0x00, // 0x02 is invalid padding, parsing should stop.
			0x90, 0x80 | kAudioLevel, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithTOAndALInvalidPadding, sizeof(kPacketWithTOAndALInvalidPadding), rtpMap, extMap);

		constexpr uint8_t kPacketWithTOAndALReservedExtensionId[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x03,
			0x12, 0x00, 0x56, 0xce,
			0x00, 0xF0, 0x00, 0x00, // F is a reserved id, parsing should stop.
			0x90, 0x80 | kAudioLevel, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithTOAndALReservedExtensionId, sizeof(kPacketWithTOAndALReservedExtensionId), rtpMap, extMap )->Dump();

		constexpr uint8_t kPacketWithRsid[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x03,
			0xa7, 's', 't', 'r',
			'e', 'a', 'm', 'i',
			'd', 0x00, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithRsid, sizeof(kPacketWithRsid), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithMid[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0xbe, 0xde, 0x00, 0x01,
			0xb2, 'm', 'i', 'd'
		};
		RTPPacket::Parse(kPacketWithMid, sizeof(kPacketWithMid), rtpMap, extMap)->Dump();

		constexpr uint32_t kCsrcs[] = {0x34567890, 0x32435465};
		constexpr uint8_t kPayload[] = {'p', 'a', 'y', 'l', 'o', 'a', 'd'};
		constexpr uint8_t kPacketPaddingSize = 8;
		constexpr uint8_t kPacket[] = {
			0xb2, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x34, 0x56, 0x78, 0x90,
			0x32, 0x43, 0x54, 0x65,
			0xbe, 0xde, 0x00, 0x01,
			0x12, 0x00, 0x56, 0xce,
			'p', 'a', 'y', 'l', 'o', 'a', 'd',
			'p', 'a', 'd', 'd', 'i', 'n', 'g', kPacketPaddingSize
		};
		RTPPacket::Parse(kPacket, sizeof(kPacket), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTwoByteHeaderExtension[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x10, 0x00, 0x00, 0x02, // Two-byte header extension profile id + length.
			kTwoByteExtensionId, 0x03, 0x00, 0x56,
			0xce, 0x00, 0x00, 0x00
		};
		RTPPacket::Parse(kPacketWithTwoByteHeaderExtension, sizeof(kPacketWithTwoByteHeaderExtension), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithLongTwoByteHeaderExtension[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x10, 0x00, 0x00, 0x0B, // Two-byte header extension profile id + length.
			kTwoByteExtensionMId, 0x29, 'e', 'x',
			't', 'r', 'a', '-', 'l', 'o', 'n', 'g',
			' ', 's', 't', 'r', 'i', 'n', 'g', ' ',
			't', 'o', ' ', 't', 'e', 's', 't', ' ',
			't', 'w', 'o', '-', 'b', 'y', 't', 'e',
			' ', 'h', 'e', 'a', 'd', 'e', 'r', 0x00
		};
		RTPPacket::Parse(kPacketWithLongTwoByteHeaderExtension, sizeof(kPacketWithLongTwoByteHeaderExtension), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithTwoByteHeaderExtensionWithPadding[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78,
			0x12, 0x34, 0x56, 0x78,
			0x10, 0x00, 0x00, 0x03, // Two-byte header extension profile id + length.
			kTwoByteExtensionId, 0x03, 0x00, 0x56,
			0xce, 0x00, 0x00, 0x00, // Three padding bytes.
			kAudioLevelExtensionId, 0x01, 0x80 | kAudioLevel, 0x00
		};
		RTPPacket::Parse(kPacketWithTwoByteHeaderExtensionWithPadding, sizeof(kPacketWithTwoByteHeaderExtensionWithPadding), rtpMap, extMap)->Dump();

		constexpr uint8_t kPacketWithInvalidExtension[] = {
			0x90, kPayloadType, kSeqNumFirstByte, kSeqNumSecondByte,
			0x65, 0x43, 0x12, 0x78, // kTimestamp.
			0x12, 0x34, 0x56, 0x78, // kSSrc.
			0xbe, 0xde, 0x00, 0x02, // Extension block of size 2 x 32bit words.
			(kTransmissionOffsetExtensionId << 4) | 6, // (6+1)-byte extension, but
			'e', 'x', 't', // Transmission Offset
			'd', 'a', 't', 'a', // expected to be 3-bytes.
			'p', 'a', 'y', 'l', 'o', 'a', 'd'
		};
		RTPPacket::Parse(kPacketWithInvalidExtension, sizeof(kPacketWithInvalidExtension), rtpMap, extMap)->Dump();

	}
	
	void testExtSeqNum()
	{
		RTPSource source;
		
		assert(source.SetSeqNum(64000)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 64000); 
		//First
		source.Update(0,64000,1);
		assert(source.SetSeqNum(65530)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65530);
		assert(source.SetSeqNum(65532)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65532);
		assert(source.SetSeqNum(65531)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65532);
		assert(source.SetSeqNum(65531)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65532);
		assert(source.SetSeqNum(65531)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65532);
		assert(source.SetSeqNum(65533)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65533);
		assert(source.SetSeqNum(65534)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65534);
		assert(source.SetSeqNum(1)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65537);
		assert(source.SetSeqNum(65535)==0); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65537);
		assert(source.SetSeqNum(0)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65537);
		assert(source.SetSeqNum(2)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65538);
		assert(source.SetSeqNum(3)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65539);
		assert(source.SetSeqNum(5)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65541);
		assert(source.SetSeqNum(5)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65541);
		assert(source.SetSeqNum(4)    ==1); Log("%d\n",source.extSeqNum); assert(source.extSeqNum == 65541);
	}
	
	void testExtTimestamp()
	{
		RTPIncomingSource source;
		
		uint32_t max = std::numeric_limits<uint32_t>::max();
		uint64_t wrap = max;
		
		assert(source.ExtendTimestamp(max-10)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-10);
		assert(source.ExtendTimestamp(max-8)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-8);
		assert(source.ExtendTimestamp(max-9)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-8);
		assert(source.ExtendTimestamp(max-9)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-8);
		assert(source.ExtendTimestamp(max-9)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-8);
		assert(source.ExtendTimestamp(max-7)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-7);
		assert(source.ExtendTimestamp(max-5)==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap-5);
		assert(source.ExtendTimestamp(1)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+2);
		assert(source.ExtendTimestamp(max)  ==0); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+2);
		assert(source.ExtendTimestamp(0)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+2);
		assert(source.ExtendTimestamp(2)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+3);
		assert(source.ExtendTimestamp(3)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+4);
		assert(source.ExtendTimestamp(5)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+6);
		assert(source.ExtendTimestamp(5)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+6);
		assert(source.ExtendTimestamp(4)    ==1); Log("%llu\n",source.timestampExtender.GetExtSeqNum()); assert(source.timestampExtender.GetExtSeqNum() == wrap+6);
		
		assert(source.RecoverTimestamp(max-10)==0);
		assert(source.RecoverTimestamp(2)==1);
	}
	
};

RTPTestPlan rtp;
